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The documentation for algebra/ shows a colossal number of type classes.

How do I declare that a structure in question must be equipped with a commutative associative operation and a unit/identity element, but without anything else (inverses, distributivity etc)?

I'm thinking of

reduce :: Monoid m => (a -> m) -> [a] -> m

but instances of Data.Monoid are not supposed to be commutative and I want users of my function to see that they need commutativity for the function to work by looking at the type.

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2 Answers 2

up vote 8 down vote accepted

(Abelian m, Monoidal m)

It might seem that Monoidal is much more than you want, but it is all based on Natural being a Semiring.

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This is the right answer. –  Edward Kmett Sep 5 '12 at 22:54

It looks like that package provides a Commutative class, so correct me if I'm wrong, but it looks like it's just a matter of specifying a second typeclass:

reduce :: (Monoid m, Commutative m) => (a -> m) -> [a] -> m
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Commutative talks about the action of the Multiplicative class, not Monoid. You could use (Commutative m, Unital m) to get a multiplicative commutative monoid that works with (*) and one, or (Abelian m, Monoidal m) to get a commutative monoid that works with (+) and zero. –  Edward Kmett Sep 5 '12 at 22:57

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